A graph-based formulation for modeling macro-energy systems

@inproceedings{Goke2020AGF,
  title={A graph-based formulation for modeling macro-energy systems},
  author={L. Rodney Goke},
  year={2020}
}
  • L. Goke
  • Published 21 April 2020
  • Engineering

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References

SHOWING 1-10 OF 42 REFERENCES

Calliope: a multi-scale energy systems modelling framework

Energy system models create coherent quantitative descriptions of how energy is converted, transported, and consumed, at scales ranging from urban districts to entire continents, and are particularly important in planning and policy-making for the transformation of the global energy system to address climate change.

AnyMOD.jl: A Julia package for creating energy system models

AnyMOD.jl framework for creating large-scale energy system models with multiple periods of capacity expansion. It applies a novel graph-based approach that was developed to address the challenges in

A review of modelling tools for energy and electricity systems with large shares of variable renewables